ClCG01G002810 (gene) Watermelon (Charleston Gray) v2.5
Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGCTTCATTTTCTTTCATCTTCCATGATCTGTATCTCATCAATTCGCTCTCTTCTCCGAAGAAATTTCTTCAGCGTTCGATCATTATCTTCTTCACCTCTGGTTTCAAATACCCGATTCTTCCCCGATTCGAAGCAAACCCTTTTGCATAATCAGCAGTGTTTTTCTGTAACTCGTTTCGTTTCACCAATTAATTCAGGTTCTTCGCTTATCGGCTCGTTTTCGACTCGCTTGGAACATACCATGGCCACCCCTTCCAAGACTTCAGTCCATGACTTCACCGTCAAGGTTGGATTTCTTCTTCATTTTGCATGTAGTTTTGAGTTTGTTTTGGTTTGAGATCGGGTCGTGTCGAGTTGATACACTGATTTTGAATCCTGAGAATTTGGAATTTAGGGGAAATGGTTTTTTTTTTCTAAGGTTTTTTTTTTAGTGTAAGGTTATTGTAATCGAATCATATGAGCGGGCACTCTTTTAAGGGAATTTTGTTGGTATGGTATCATTTAGTGTGTTAGCGTGGAGAAGTATGGGTAATCGTTCAATTGTGTTTATAATTTTCCCTTCAATTCAGCTGTTTCCACACCCTTTCAATGGCTGGTTGAATCAATGGGCTTCAATTAGCTCTGTCATTTTAGTTGGGGAATTCCTCTTTTTCTGTGAAGCTCTGATTGATTTGCTTCCTGGGAATGTTAATAATTTGTTGGCTTTTCTTTTCGAAACTATATGAACTGCTTGTCCTCTGCTTGCAGGATGCTAGAGGAAATGATGTTGACCTCAGCATTTACAAAGGAAAGGTCCTGTTGATTGTCAACGTCGCTTCACAATGGTAGTGTATAGTACACAGTTATTTCTGATGCCTTCTCTAATCTCTGTCCCAAAAACATAAGGATGTCTTACAATTTTGTCTTGAAAGTTTTTGAGTTGATTATATTGTATCTATGTAGTCAAAATGGTAGGATGATGACTTTGAGTTGCCATTCTTAATCATGTGAATGAATAGTCCTCTATGAGCCATTATAGATTTAAGAGAATTTTGGTATCACCTTCCAATATAGAAGAGAAAAATCTCTCCAACCTTGATGGATAGATATAGTTATGTCGATGCTAGATTCCAAGAATGGAAATTGAGACTATATCAACTATTAGTTTTAGATTGGGCAGTACATAATTATCTATATGATGAACGTGGGCAGCCACTTCGACATTGTTTTGCTTTCTTTTTAATGTTTAGTTTTTGATGCACTGCAGTGGCTTGACCAATTCGAATTACACTGAACTGAGTCAGCTGTATGAAAAATACAAGGGTCATGGTCTGTTCTAAATATCCTTCGATCTATTTTCTCTCTTGCTTCAATTCATCCTTTCTTCTTTCCAATTCAAGTTCATAGTTACAATTTACGCTTGAATTCGACAGGATTTGAGATTCTTGCATTTCCGTGCAACCAATTTGGAGGCCAGGAGCCAGGAACCAATGAAGAGATTGTGCAATTTGCTTGCACCCGTTTTAAGGCTGAGTACCCCATTTTTGACAAGGTAAATAAGATACCCATTTGACACCTTCAAAATCTTACTGGGGTTTTAGTTTTTACATGGTTGACACAAGGGAATTGTTGTTCAAAGTGGTAGATTTTATTTTAAGCTATATAACTGTCTGTCCTTTCTTGTTCATAACAGGTGGACGTGAATGGAAACAATGCGGCTCCTCTGTACAAGTTCTTGAAGTCAAGCAAAGGTGGGCTCTTCGGAGATGCCATTAAGTGGAACTTCTCCAAGTTCTTGGTGGACAAAGATGGAAACGTTGTCGATCGTTACGCCCCAACAACTTCCCCGCTCAGCATTGAGGTAAACGAATCCAATAGTTCTTCGCAACTAATCTTATAATCGAATTTGAGTACTCTTTTCTTTATGAATCAATCAGTCCATTATTGTAACTGTGGGGTGTTGGTTGTATTTTTACAGAAGGATGTGAAGAAGCTGCTTGGAGTTGCTTAAGAATCTGAGGGCTGTTTTTCCTTGTCTGTTTATTAGAAACAATGAATAAAGCTGCTGTGTATTTGCTCTGATGTGTATGCCTGTGGTTTTCTTAATGTTGTTCCATGTATTTACAAGACTGTAAGTTAAGAATTATGTAATAAGTTGGTTGGGCTTTGATGTATCCCAAATGTAGCTGCTGTTTTTATGCGCTGGTTTCTTAACGTCTGTTCTTGTACGTTTTGAAGTACAAATTTACAGATTTATTTCTTCCTCTTGCAATTTTATTAGATATTATGATGTGTGGGCCGAGATTCGAGCGTGTGGTGGAAATTTTGAATATATATATAATGTTAGGAGTATTATTATAATGAAAAAAAAAAAATCAAACTATTTATAAATATATATATATAAATATATAGAAAAATTCTTGGGACATAGAATTCGGTCGATCTATGTATTTTCTATATCCAATAATGTTGTGTGCAAATATCCAAAAGCAGGATGATTTAATGTTAGGGAAATTATTTTAAGGTGTAAAATTGTTGAAAACATTTTACAAATAAAAACTGTTAAAAAATATTTGCTTTGATCACAGCGTGATAGGTAGCAATATCTATGTGACACATGATATAGTAAATATTTTTCTTTGTTTTTATATATCTAGAAACCACTCTTAATATTATATTATTAATTTTATATTATATCTTCTAATATTATATATTATAAATTAAAATAAATAAAATTAGTAACTTTAAACATGTAATATTTGTTTTTTTTTTTTTTTAAGGTTAATCGTTTAGAGCAATTTAGAGTAAAATTGAAAAATAACAATTAATCTCAATGCTTTAATGTCCGTAGTCCTTGAATTTTGGTCTGTAACAATTTAATCCTCGTACTTTTAGTTTTGTAGCAATATAGTTCTTAAATTCTATTATGTTCCTCGTACTTTTAGTTTTGTAGCAATATAGTTCTTAAATTCTATTATGTAACAATTTAGTCATTGTAATCTAAAATTTGTAATGAAAAGTTTGTAACGATTTAGTCCCTAATGTTAAAATAAACTTTTTTGCATAAAACAGATAAACAAATTAGAGACTCAATATTCGTATATAATACAAATGAAAATTTTAGTCCTAAATTTTACCATGTAACAATTAAGTCCTTATGCTTTAAAATTTGTAATGAAAAAATTTTGACGATTTAGTCTCTATAGTAGAAATTAATGTTAAAATTTAGTGAGATTTTTTACACAAATAAACCAATAAATAAATTAGATACTCAATATTTGTATATAATACAAAGTCTAAAATAATAAAAACTAACATCTAATTTTGATAATTTTTTTTACACAAGAGACTATATTGTTACAAATTTAAAAATATAAGGATCAAATTGTTATACGCTAAAGTTTAGATACTAAAGTGTTACAAAATTGAAAATATAAGGATTAAATTGTTACAAACCAAAGTTTAAAGACTAAATTGTTAATTTTATGAAAGTTTAGGAAAAAAATGTTTTTATTTTTTTTTTTAAGTAGGGTGTAAGTAGGAAATTCAAACGATAGATTTCAGAAAAAAAAATTGAATTTTAAGTCCATTCTATAAATTATTTTTAGAATCACAAAAATGGTAACTTAATTTTAAACTTTACAAAATGCCCAAGAAAACGCATTTTCTCAAACGGGGTTTTAATTAATTAGAATTTTCCTTTTAAACTAATAAAATTTTAAACTACACTAGTTATTCTAGTATTTAATGTAGTTTGGTTTACATCACTATTATAAGGAGGGGAGATTTGAATCTTGAATTTGTTTTATCCTTTCAAGTTTATCAATTTTGATAATGAATTAATTATGTTATTTTTTTACCATAATTATTTTGTATTAGTAATAAATTTTCAAAATAAATAAATAGAGTTAGACTTAGTTTGGGATTGTTGTAGTTTTTTGAATAAGAGATTGAATCAATTAAAATTTAGAACAAATGTTAGAAAATAAATTAAGGGTGATAAATTTGAGATGGGCAGAAAAAAAATTTAGGAAAGCTACAATCGAACAAATTTAAAAGTGATTTTGAGTAGATTAATAAATAAGTTGTTTTACTAGACCGCTAAAGCGGTTAGGTTTCACGTATAATCATTTTTTACGCTTGCAAAAGTAATTTCAAACAAGTCTTTAATTTTCTTCACAAACGTTTATGTTGTGGAGCATGATCATGCCGATGTTTGTGTTGCACTACCAAATTGCTTGTATTATATTGAAAATTCTAATATTTTTATTATATATTTTCATGTGAGTTTCCATTTGTTAGTGCTATTTTATATTAAAAAGAGAATACTTATTAATTAATTTAACTTTAATAAAGATTGATTAATTTTCGTCAACATTGCACATGCAGATACACATGTTACATATACATATATATTCTCCATTATTTTAACAACGTTAATTGCAATATTCATTTTATATATTTTTCGTAACAGTGATAGAGAGATCCAACTGTAAATTGTTGGTGGCTAATATTAATTAATACTATTTTAAATGATTGAAATCAATTTTAATGGTATGAACATTTTGTTTAAAAGTGTAAAATCAAACATTAAATTCATTTTGATGATTAAAAACATGTTTCTATTTTAAGTTATTTTGGACTAAATGGCATAATCAATATCTAAGAAGAAAGCATAATTCAAGTCGAAAGTCCCAACTTAGGACTAAAGTGGCCTAGAAAAAGGGCGCTAGCTGAGGCCAGGCTCAAGCCAGCATGCTCGACCTTGGCCAAGGCCATGCCAAGCCTCACAAACACACCCAACAGGGCATGCTTTACACATGTCTCGACTCAAGGGGTCATCTTAGGCCCAAAATATGGCTAAGAGAAGGTGCTTCACCTTGGCCGAGGCTGACCCTAGAAAAACACCAAAGGAGGCACGTCCCTCATGCGCCCTAGCCTAGTAAGTCGAAGGACAATCCATATGCAACTTTAAAACCCTGGGGTAATGTCCTAGGTCAACTACACCTATAATTACATCATGAAAGCTTTGAGAAGTAAGTTCATTCTAATACTCAAACTCTCTACTTGCTAGACAATTATACCTTCTTTCTTAAACATTACATCTTCTGACTTAAACATTGAAGCCTGGGATCTTTCCATCTTGAAGGTCACGTTCTTTCCCAAGTTATAAATTTACTATTGCTATCATTTGAATGTCAGGTGTATTTTTTTCCGTCCAGATTTTTGCATCATTAGTTTCAAAATGATTTTGCATATCAAAATGATCTTAAATTATTTCAAAATCACTCTTAAATATATTTCTCATATTTTTAATATAATGATATTCTTATATTACACAATTTTCTATACATGTGATATGTTGTTTTGGATGTGGAATAAAGAAACAATGGATTAATTATTAATTATTATTATTATTGCTCTATCTAAATGCATGTATAAAACCATAAAAATTAAATGGACACTCTTAACAAACTAACACATAAAGGGACTAAAATTGTAATCTTAGCTTTCGAAAAAAAATTTGCAATCTATCCCTTACAATTATTATAAAACATTACTCTCTGACACCTCCCTAGTTAGTACTTAGGAGTAGTTGTTGAGTTGTTGGGTATTTTTATGTTAAAGCGACTCCCCTTCATGCTTGTTATTAGTTTATATACAACGATAATTAATCATCTGAACTATGGTCCATTTTTTAGTTACTCATAATTAAGAGACCCTTTATTAATAAATAATTATTAAGTTTGTTTTTATAGTCATTTGACTTTATTTTTAAAAAAATAAATTTATAAATATTTTTTTTGTTTTGTTATCTATTTTGAGAAGTGTTTCAAAAAAACATAAAGACTTTAAAAACTATAAAAAAAAAATGTTATATCAATGTTTAGTTAACAAATATGAAAACTATACTAATGAAGTGGTAGAAAAAATACACATGTTTTAATTGATTGAATTAATTTATTTATTTTGGCATGACTCAATAAATAAAGGCAACAATTATGACTCTTAAATGCTGATATTTCAATCTTCTATTTTATTATTGTGGAACTAAAACAACAATAATCAGATTAATTCAAAAAAAAAAAAAAAAGTTTAGATTCAATGAAACTGAAGGATCTAATATCTACTCTAATTTAAAACATTCATAAAAAATGTGAGGTTTCAAGTTTATTGTTAACCAAAATTGAAAAATATTAGTACACACAAGACTAAATTAAACTTTTTAAGAATGAAATTGAAAAAAATACTCAAACGTTAGAGATAAAAACATATATTCAGCCCATTTTTACATTTTTCATAAAAAGACTATTTAAAAATCACGGAGTCAATTAAATCCTAATACTTTAAACTTGTAACTTTAAAAGTTAAATTAACACAACCCCAAATTATTATTATTGATTATTATTACCATAATAGTATTTTAAGCAATAAAATATTTTTAAAAAAAAATTAACAAGCAGAATAATTTTCAAAGTCTATATTTTAAATTTGTAATTATAATAATAATCCCAGCTTCTTGTCACTGTCAGTTCACTATTTTGTAATTGCTATTTCCTTGCATTTCATCGAAGCTCAGGTCTGTTGATTTTACAATGGCTACCCAAGCTTCAAATCACCCGGAATCCATTTACGACATCACCGTCAAAGTTTGTTCTCGTTTCCTAATTCTTCACTTTTTCTGTGTTCTGCGCCATTTTCCCTTTCTTTCTCTGCTTGTTATTGGAATGGTTGGATAAAACTTCATTGTATTTTCGCATGATTTCGTGGGGTATTCGAATTAACGATTCTGGGAACTTCTCTGTGGCTGATGGATTCTAAACGAGTGTGTATTAGGGACTTATTTGATTTTAGTTCTGATGTTTTATTTGATTAACGAAGAATCGAGGGGATTGAGTGGGAAATTATGATGAAGTCTAGGGCTGAATTTGTGAATTTCCGTTCTATAGAAATGGAAGGGGTTTTTGTTAAATTTCAGTGCATCTTTTGAATTGAATGTTAATTTTCGTTTTGATTTGTTTCATTTCGTAGGTAAATCTAGTCCAGCTTCTAGGCCTTTGTGCTTTATTCATGGGAAAAGCTTTTCTGCTGTTGATCTTAGGATGAATTTTAGGAATACTTTCTGGTTTTGATTCAAATTCGTGTGGCATTTCTGTTGCGTCTCTCCTTTTGTTTGCAGGATGCTGAGGGAAATGATATCAACCTTAGGATATACAAGGGTAAAGTCCTACTCATTGTCAACGTTGCTTCCAAATGGTACATTCTTTTTCTTTCACTTTCGATGTTTGCACCTATATGCTCTTTAATTTGCAACGGTTCTTTTGTTCTTTCGCTAGGATATTTCAACATGATTTCAAACATTACAAAAGTGATTTCAACAATTTCAAAATCACTCCCAATCATACACTAACATGGTTTAAAGTTAATGTAGATGATTGACCCTTGGTTGCTCCAATTATTTACCACAATTCACTGATGTTTCTGAGTGTTTTTGCTATTATTTTTATCCCTTGCAACAGTGGGATGACAAATTCAAACTATCTGGAGTTGAACCAACTATACGACAAATACAAAGAACACGGTTACCCTTTTATCACTCTCTTGTTGAAAATCATACGAATCTCTTATTTAGTATATTCTTGTTGGTTTTGTTACTTTTGTTGAAGAATTCTCTCTGTAGAATCCTGTTCTTTTCCTCTTTTTTCTCTCTTTTTGTTGTCTAATGGAGAAGAAAGCTAGAAAGTTTGGGTATTGGGTAATGTGTATATGTTCAATATTCCTAACACTTCTTTTTTGTTTTAATACAATAGGAGTAGGGGGATTCGAATCACAGACCTCTTGGTTGCTAAAACATTCGTATGCCAGTTGAGCCATGCTCATTTTGACTTTAATACTCCAACTTGTTGATCTTAGTTGAACAAATTAAATAAATGCCTAGTTGAACAAATTGAATGAGTGTGACTTTTGCTGGACACACGTTGAACACTTGCCACAATAAATTTGCGTCCGGCTCTTGTGAGTATTTTGAGGGTGAAATATATATAAACACATGCAATATTGACTTTAAATTTCTTCTTTTTGTTAAGATGTAAATGCATTTAGAAATTTGATGAGTTGGTTTGGATGTATTTTAAATATTTTGACATAAAGCATTGTATCATACTTCATAAATGAACCAACGCCATAAACTCAAGCAAAGTGTTAGCATGAGAATCACTAAAATGTATACAAATAGTATATACTTAGAAGATGTGTTGGTAATAATTGCATCCATGTTGTGCCCGTATCTAAAACTTTTAGAGCTTAACATATTACTTTGTCCATGTTGTGTTGTGTCTGTATCTCATGCTATGTTTATGCTCAAACTGTAAAACATTGACTAATTCAACAGCCTATTAAAACTCTCTTGCTATCCTATCGTCTTTAGCCTTAGGATATTTGGAGTTGGCTTCATGTGGAGGTTTTTCAATTCTTAGCAAGAATGATGGCTTCTAGTAGTTTAACTCTCTTTTATTGAGGTTAGGTTATTGCAGGTTTGGAAATTCTGGCATTTCCTTGTAATCAGTTTGGTGACGAGGAACCGGGAAGTAATGATGAGATCAAAGATTTTGTCTGCAGTCGTTACAAATCAGAATTTCCAATTTTTGACAAGGTAAGGCTAATGTTATTATGTATGTGTATGTATCTTCCAAAGTATGCTTCCGTTAAGAACACCTTGTGTTTCTTTCTATAAGATTGAAGTAAATGGGAACAATTCTGCTCCACTCTACAAATTTTTAAAATTGGGCAAATGGGGGATATTTGGGGACGATATTCAGTGGAATTTTGCCAAGTTTCTCATTGATAAGGATGGGAAAGTAGTTGATCGTTATTACCCCACAACATCACCTCTCAGCATTGAGGTAAACCTGCTACTGGCAACTTAAATCCAGCCTTCCCCTTTCCCTTTGTTTTATCGTACAGGAGCATCCTCATAATTTAAACCACTTGATTTTGCTGCAGCATGATATCAAGAAGCTATTGGGATCTTATGAGCAATGGAGCATACAA ATGCTTCATTTTCTTTCATCTTCCATGATCTGTATCTCATCAATTCGCTCTCTTCTCCGAAGAAATTTCTTCAGCGTTCGATCATTATCTTCTTCACCTCTGGTTTCAAATACCCGATTCTTCCCCGATTCGAAGCAAACCCTTTTGCATAATCAGCAGTGTTTTTCTGTAACTCGTTTCGTTTCACCAATTAATTCAGGTTCTTCGCTTATCGGCTCGTTTTCGACTCGCTTGGAACATACCATGGCCACCCCTTCCAAGACTTCAGTCCATGACTTCACCGTCAAGGATGCTAGAGGAAATGATGTTGACCTCAGCATTTACAAAGGAAAGGTCCTGTTGATTGTCAACGTCGCTTCACAATGGTATGGCTTGACCAATTCGAATTACACTGAACTGAGTCAGCTGTATGAAAAATACAAGGGTCATGGATTTGAGATTCTTGCATTTCCGTGCAACCAATTTGGAGGCCAGGAGCCAGGAACCAATGAAGAGATTGTGCAATTTGCTTGCACCCGTTTTAAGGCTGAGTACCCCATTTTTGACAAGGTGGACGTGAATGGAAACAATGCGGCTCCTCTGTACAAGTTCTTGAAGTCAAGCAAAGGTGGGCTCTTCGGAGATGCCATTAAGTGGAACTTCTCCAAGTTCTTGGTGGACAAAGATGGAAACGTTGTCGATCGTTACGCCCCAACAACTTCCCCGCTCAGCATTGAGCTCAGGTCTGTTGATTTTACAATGGCTACCCAAGCTTCAAATCACCCGGAATCCATTTACGACATCACCGTCAAAGATGCTGAGGGAAATGATATCAACCTTAGGATATACAAGGGTAAAGTCCTACTCATTGTCAACGTTGCTTCCAAATGTGGGATGACAAATTCAAACTATCTGGAGTTGAACCAACTATACGACAAATACAAAGAACACGGTTTGGAAATTCTGGCATTTCCTTGTAATCAGTTTGGTGACGAGGAACCGGGAAGTAATGATGAGATCAAAGATTTTGTCTGCAGTCGTTACAAATCAGAATTTCCAATTTTTGACAAGATTGAAGTAAATGGGAACAATTCTGCTCCACTCTACAAATTTTTAAAATTGGGCAAATGGGGGATATTTGGGGACGATATTCAGTGGAATTTTGCCAAGTTTCTCATTGATAAGGATGGGAAAGTAGTTGATCGTTATTACCCCACAACATCACCTCTCAGCATTGAGCATGATATCAAGAAGCTATTGGGATCTTATGAGCAATGGAGCATACAA ATGCTTCATTTTCTTTCATCTTCCATGATCTGTATCTCATCAATTCGCTCTCTTCTCCGAAGAAATTTCTTCAGCGTTCGATCATTATCTTCTTCACCTCTGGTTTCAAATACCCGATTCTTCCCCGATTCGAAGCAAACCCTTTTGCATAATCAGCAGTGTTTTTCTGTAACTCGTTTCGTTTCACCAATTAATTCAGGTTCTTCGCTTATCGGCTCGTTTTCGACTCGCTTGGAACATACCATGGCCACCCCTTCCAAGACTTCAGTCCATGACTTCACCGTCAAGGATGCTAGAGGAAATGATGTTGACCTCAGCATTTACAAAGGAAAGGTCCTGTTGATTGTCAACGTCGCTTCACAATGGTATGGCTTGACCAATTCGAATTACACTGAACTGAGTCAGCTGTATGAAAAATACAAGGGTCATGGATTTGAGATTCTTGCATTTCCGTGCAACCAATTTGGAGGCCAGGAGCCAGGAACCAATGAAGAGATTGTGCAATTTGCTTGCACCCGTTTTAAGGCTGAGTACCCCATTTTTGACAAGGTGGACGTGAATGGAAACAATGCGGCTCCTCTGTACAAGTTCTTGAAGTCAAGCAAAGGTGGGCTCTTCGGAGATGCCATTAAGTGGAACTTCTCCAAGTTCTTGGTGGACAAAGATGGAAACGTTGTCGATCGTTACGCCCCAACAACTTCCCCGCTCAGCATTGAGCTCAGGTCTGTTGATTTTACAATGGCTACCCAAGCTTCAAATCACCCGGAATCCATTTACGACATCACCGTCAAAGATGCTGAGGGAAATGATATCAACCTTAGGATATACAAGGGTAAAGTCCTACTCATTGTCAACGTTGCTTCCAAATGTGGGATGACAAATTCAAACTATCTGGAGTTGAACCAACTATACGACAAATACAAAGAACACGGTTTGGAAATTCTGGCATTTCCTTGTAATCAGTTTGGTGACGAGGAACCGGGAAGTAATGATGAGATCAAAGATTTTGTCTGCAGTCGTTACAAATCAGAATTTCCAATTTTTGACAAGATTGAAGTAAATGGGAACAATTCTGCTCCACTCTACAAATTTTTAAAATTGGGCAAATGGGGGATATTTGGGGACGATATTCAGTGGAATTTTGCCAAGTTTCTCATTGATAAGGATGGGAAAGTAGTTGATCGTTATTACCCCACAACATCACCTCTCAGCATTGAGCATGATATCAAGAAGCTATTGGGATCTTATGAGCAATGGAGCATACAA MLHFLSSSMICISSIRSLLRRNFFSVRSLSSSPLVSNTRFFPDSKQTLLHNQQCFSVTRFVSPINSGSSLIGSFSTRLEHTMATPSKTSVHDFTVKDARGNDVDLSIYKGKVLLIVNVASQWYGLTNSNYTELSQLYEKYKGHGFEILAFPCNQFGGQEPGTNEEIVQFACTRFKAEYPIFDKVDVNGNNAAPLYKFLKSSKGGLFGDAIKWNFSKFLVDKDGNVVDRYAPTTSPLSIELRSVDFTMATQASNHPESIYDITVKDAEGNDINLRIYKGKVLLIVNVASKCGMTNSNYLELNQLYDKYKEHGLEILAFPCNQFGDEEPGSNDEIKDFVCSRYKSEFPIFDKIEVNGNNSAPLYKFLKLGKWGIFGDDIQWNFAKFLIDKDGKVVDRYYPTTSPLSIEHDIKKLLGSYEQWSIQ Homology
BLAST of ClCG01G002810 vs. NCBI nr
Match: KAG7036048.1 (putative phospholipid hydroperoxide glutathione peroxidase 6, mitochondrial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 634.0 bits (1634), Expect = 9.0e-178 Identity = 325/401 (81.05%), Postives = 342/401 (85.29%), Query Frame = 0
BLAST of ClCG01G002810 vs. NCBI nr
Match: KAF3448555.1 (hypothetical protein FNV43_RR09268 [Rhamnella rubrinervis]) HSP 1 Score: 596.7 bits (1537), Expect = 1.6e-166 Identity = 305/404 (75.50%), Postives = 340/404 (84.16%), Query Frame = 0
BLAST of ClCG01G002810 vs. NCBI nr
Match: RZB77961.1 (putative phospholipid hydroperoxide glutathione peroxidase [Glycine soja]) HSP 1 Score: 558.1 bits (1437), Expect = 6.3e-155 Identity = 270/334 (80.84%), Postives = 300/334 (89.82%), Query Frame = 0
BLAST of ClCG01G002810 vs. NCBI nr
Match: TXG50485.1 (hypothetical protein EZV62_023009 [Acer yangbiense]) HSP 1 Score: 554.7 bits (1428), Expect = 7.0e-154 Identity = 273/358 (76.26%), Postives = 308/358 (86.03%), Query Frame = 0
BLAST of ClCG01G002810 vs. NCBI nr
Match: BBH03349.1 (glutathione peroxidase 6 [Prunus dulcis]) HSP 1 Score: 545.4 bits (1404), Expect = 4.2e-151 Identity = 284/437 (64.99%), Postives = 326/437 (74.60%), Query Frame = 0
BLAST of ClCG01G002810 vs. ExPASy Swiss-Prot
Match: O48646 (Probable phospholipid hydroperoxide glutathione peroxidase 6, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=GPX6 PE=2 SV=2) HSP 1 Score: 304.3 bits (778), Expect = 2.2e-81 Identity = 167/229 (72.93%), Postives = 189/229 (82.53%), Query Frame = 0
BLAST of ClCG01G002810 vs. ExPASy Swiss-Prot
Match: Q06652 (Probable phospholipid hydroperoxide glutathione peroxidase OS=Citrus sinensis OX=2711 GN=CSA PE=1 SV=1) HSP 1 Score: 280.4 bits (716), Expect = 3.3e-74 Identity = 136/158 (86.08%), Postives = 147/158 (93.04%), Query Frame = 0
BLAST of ClCG01G002810 vs. ExPASy Swiss-Prot
Match: Q8LBU2 (Probable glutathione peroxidase 8 OS=Arabidopsis thaliana OX=3702 GN=GPX8 PE=2 SV=1) HSP 1 Score: 278.1 bits (710), Expect = 1.7e-73 Identity = 123/163 (75.46%), Postives = 149/163 (91.41%), Query Frame = 0
BLAST of ClCG01G002810 vs. ExPASy Swiss-Prot
Match: O23814 (Probable phospholipid hydroperoxide glutathione peroxidase OS=Spinacia oleracea OX=3562 PE=2 SV=1) HSP 1 Score: 271.2 bits (692), Expect = 2.0e-71 Identity = 128/151 (84.77%), Postives = 142/151 (94.04%), Query Frame = 0
BLAST of ClCG01G002810 vs. ExPASy Swiss-Prot
Match: Q9LEF0 (Probable phospholipid hydroperoxide glutathione peroxidase OS=Mesembryanthemum crystallinum OX=3544 GN=GPXMC1 PE=2 SV=1) HSP 1 Score: 266.2 bits (679), Expect = 6.5e-70 Identity = 127/159 (79.87%), Postives = 142/159 (89.31%), Query Frame = 0
BLAST of ClCG01G002810 vs. ExPASy TrEMBL
Match: A0A445HVZ7 (Glutathione peroxidase OS=Glycine soja OX=3848 GN=D0Y65_028762 PE=3 SV=1) HSP 1 Score: 558.1 bits (1437), Expect = 3.1e-155 Identity = 270/334 (80.84%), Postives = 300/334 (89.82%), Query Frame = 0
BLAST of ClCG01G002810 vs. ExPASy TrEMBL
Match: A0A5C7H147 (Glutathione peroxidase OS=Acer yangbiense OX=1000413 GN=EZV62_023009 PE=3 SV=1) HSP 1 Score: 554.7 bits (1428), Expect = 3.4e-154 Identity = 273/358 (76.26%), Postives = 308/358 (86.03%), Query Frame = 0
BLAST of ClCG01G002810 vs. ExPASy TrEMBL
Match: A0A4Y1RGD0 (Glutathione peroxidase OS=Prunus dulcis OX=3755 GN=Prudu_014196 PE=3 SV=1) HSP 1 Score: 545.4 bits (1404), Expect = 2.0e-151 Identity = 284/437 (64.99%), Postives = 326/437 (74.60%), Query Frame = 0
BLAST of ClCG01G002810 vs. ExPASy TrEMBL
Match: A0A4D6L995 (Glutathione peroxidase OS=Vigna unguiculata OX=3917 GN=DEO72_LG2g5388 PE=3 SV=1) HSP 1 Score: 537.7 bits (1384), Expect = 4.3e-149 Identity = 267/372 (71.77%), Postives = 306/372 (82.26%), Query Frame = 0
BLAST of ClCG01G002810 vs. ExPASy TrEMBL
Match: A0A314XUA2 (Glutathione peroxidase OS=Prunus yedoensis var. nudiflora OX=2094558 GN=Pyn_05244 PE=3 SV=1) HSP 1 Score: 534.6 bits (1376), Expect = 3.6e-148 Identity = 245/331 (74.02%), Postives = 292/331 (88.22%), Query Frame = 0
BLAST of ClCG01G002810 vs. TAIR 10
Match: AT4G11600.1 (glutathione peroxidase 6 ) HSP 1 Score: 304.3 bits (778), Expect = 1.5e-82 Identity = 167/229 (72.93%), Postives = 189/229 (82.53%), Query Frame = 0
BLAST of ClCG01G002810 vs. TAIR 10
Match: AT1G63460.1 (glutathione peroxidase 8 ) HSP 1 Score: 278.1 bits (710), Expect = 1.2e-74 Identity = 123/163 (75.46%), Postives = 149/163 (91.41%), Query Frame = 0
BLAST of ClCG01G002810 vs. TAIR 10
Match: AT4G31870.1 (glutathione peroxidase 7 ) HSP 1 Score: 241.9 bits (616), Expect = 9.3e-64 Identity = 117/154 (75.97%), Postives = 129/154 (83.77%), Query Frame = 0
BLAST of ClCG01G002810 vs. TAIR 10
Match: AT2G43350.1 (glutathione peroxidase 3 ) HSP 1 Score: 235.0 bits (598), Expect = 1.1e-61 Identity = 111/159 (69.81%), Postives = 129/159 (81.13%), Query Frame = 0
BLAST of ClCG01G002810 vs. TAIR 10
Match: AT2G43350.2 (glutathione peroxidase 3 ) HSP 1 Score: 235.0 bits (598), Expect = 1.1e-61 Identity = 111/159 (69.81%), Postives = 129/159 (81.13%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Watermelon (Charleston Gray) v2.5
Date Performed: 2022-01-31
Relationships
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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